8.9/10

More Detailed Astrophotography Telescope Reviews

This telescope is perfect for the serious hobbyist astronomer or astrophotographer. It features an aperture of 130mm (5.1”), focal length of 910mm and focal ratio of f/7. Retailing around $2400, this telescope is definitely not the cheapest option out there, but it is an outstanding telescope that provides high value in return.

The Orion 09565 EON is an apochromatic refractor telescope. This kind of scope is one of the best choices for astrophotography. “Apo” refractors regularly and reliably capture stunning images of the night sky. Plus, they adapt fast to changes in temperature, and they’re quite durable.

An apochromatic (apo) lens is resistant to chromatic and spherical aberration. These are common problems with refractor telescopes, but with an apochromatic model, it’s no longer an issue.

This scope comes with a dew shield to protect against dew or condensation forming on the lens. Its 3” Crayford focuser is effective and user-friendly, designed to make image framing simple for astrophotographers.

There’s a focus-lock thumbscrew; once in focus, you can use this thumbscrew to keep the drawtube in position as long as you need. This focuser also comes with an Orion finderscope base, so it is compatible with other Orion products.

This telescope weighs 22.5 pounds, which is reasonably portable (though other models on this list are substantially lighter). It comes with a hard carrying case and tube rings but no mount.

Overall, the Orion 09565 EON is a lot of telescope at a competitive price. It produces stellar images even under challenging conditions. This is a telescope you can take out to your backyard or patio, even if there’s light pollution, and see incredible views.

If you’re looking for a top quality apochromatic refractor with a relatively generous (5.1”) aperture, then this telescope deserves serious consideration.

As a refractor, this telescope doesn’t require the adjustments (collimation) that a reflector does, and its closed tube is also more durable and resistant to the elements. As an apochromatic model, it corrects for chromatic aberration and produces superb images.

This scope was designed with astrophotographers’ needs in mind. The optics are fully coated for protection and image quality. It comes with a Canon 48mm T-ring photo adapter and a dew shield to guard against moisture.

There’s also a 2.7” power focuser (with micro-focus) and an erect-image finderscope to help you find and focus on objects fast.

Another fantastic feature: This telescope weighs under 10 pounds. Its small, lightweight, and eminently portable (carrying case included), making it the perfect companion on a camping trip or a visit to a far-off dark sky location.

The Meade 70mm Astrograph is the third apochromatic refractor on my list—as you can tell, I’m a big fan of these kinds of telescopes for astrophotography! This model’s fully multi-coated optics and extra-low dispersion optical glass will yield great photos of celestial bodies.

Its quadruplet lens design includes four high-quality glass elements. What this means for you: superb optics, sharp and detailed images, and virtually no chromatic aberration. Plus, no need to use a field flattener for astrophotography, since the lens design already supplies a flat field of view.

This scope has a 70mm (2.76”) aperture, 350mm focal length, and f/5 focal ratio. This relatively fast focal ratio makes the Meade a good choice for wide-field astrophotography.

The Meade 70mm Astrograph comes with a hard carrying case and other accessories (focuser, dew shield, aluminum cover for objective lens, etc.). Once assembled, it weighs only 4.5 pounds, making it an easy grab-and-go model.

One final note: This telescope is specifically designed for astroimaging and not for visual observation.

Another great apochromatic refractor, the Orion 9534 ED80T comes as a carbon fiber tube that is lightweight but strong. Featuring extra-low dispersion glass, this model has high-quality optics that yield images without false color or aberrations.

The Orion has an aperture of 80mm (3.15”), and a focal ratio of f/6. It offers a relatively wide field of vision, allowing you to capture sweeping image of the night sky. Its 2” Crayford focuser makes finding and focusing on objects easy.

Weighing in at around 10 pounds, this scope is quite compact and portable, so you’ll get plenty of use out of it. It comes with a hard carrying case, as well as Starry Night astronomy software.

Overall, this scope is user-friendly, relatively compact, and excellent for wide-field astrophotography.

I recommend the Explore Scientific for anyone in search of a quality astrophotography scope on a budget. At around $750, this telescope isn’t cheap—good astrophotography telescopes simply don’t come cheap—but it’s high-quality and high-value.

This model has an aperture of 80mm (3.15”) aperture, focal length of 480mm, and focal ratio of f/6, which is a bit on the faster side. It boasts the potential to provide a 5 degree field of view, allowing you to capture broad swaths of the night sky.

The Explore Scientific is an apochromatic refractor with a triplet optical design (including three glass elements).

It weighs around 10 pounds, which makes it quite portable, and it’s also user-friendly. Once you get the hang of it, you’ll be able to set up quickly (within fifteen minutes or so) and get going.

Overall, this telescope is well worth a look if you’re a new or intermediate astrophotographer who wants a quality telescope and sharp images at a moderate price.

So far, I’ve primarily focused on apochromatic refractors for use in astrophotography. But that doesn’t mean a good reflector can’t take stellar images too! In fact, one benefit of a reflector is that you can generally get a larger aperture size (meaning more light is able to enter the telescope) for less money.

The Sky Watcher S11210 is a Newtonian reflector telescope with a 205mm (8”) aperture. This relatively generous aperture helps it collect plenty of light, leading to clear and detailed images.

It has a focal length of 800mm and focal ratio of f/4. It is therefore quite a “fast” telescope. I explain the implications of focal length and ratio in greater depth below, but in short, telescopes with fast focal ratios like this one provide a wider field of view and are well-matched for photographing dim, distant, and dispersed celestial bodies.

This telescope features fully multi-coated borosilicate mirrors and comes with a dual-speed focuser that makes focusing precise and easy.

The Sky Watcher is one of the more affordable option on my list. I recommend also looking into the Sky-Watcher Quattro coma corrector, which will improve your images.

The SpaceProbe comes with an equatorial mount and, once assembled, weighs 27 pounds. It’s among the heavier options on this list, but it’s still definitely small enough that you can transport it in your car and will get a good amount of use from it.

This is the perfect first telescope for a new hobbyist who doesn’t want to waste time on low-quality models. The Orion combines high quality with ease of use. Since it’s a reflector, you will need to learn how to collimate the mirrors, but you’ll quickly learn how to do this.

The Orion 09007 SpaceProbe is capable of showing you celestial objects such as the Orion Nebula, the rings of Saturn, the moons and cloud belts of Jupiter, and of course, closer and brighter objects like the Moon.

This is the most affordable option on my list. It’s a solid reflector telescope with quality optics and a good-sized aperture that will collect a lot of light. The Orion 09007 SpaceProbe is a great choice for the beginner or intermediate astronomer who is interested in both observing and imaging.

Astrophotography Telescope Buyer’s Guide

This guide goes through different considerations for choosing an astrophotography telescope. Your personal goals and budget are often the most important factors. I’ll also briefly explain different kinds of mounts and accessories, the differences between refractor and reflector telescopes, and the significance of specs like aperture, focal length, and magnification.

Personal interests

What are you most interested in? First of all, are you completely dedicated to astrophotography? Do you plan to take photos frequently and invest serious time in honing your craft?

Or are you primarily an astronomical observer, someone who loves seeing the stars and planets up-close, enjoys the challenge of locating new things, and simply wants to take a photo or two for your personal enjoyment?

This guide should be helpful to both groups, but it’s aimed a little more at the former, at people who want to take photos at least semi-regularly and need a telescope specifically designed for astrophotography.

If you decide instead that you want to prioritize observing over photographing, then take a look at our other telescope reviews and guides. You should also ensure, before you buy, that a particular telescope model is suitable for visual observation (in addition to astroimaging).

What do you want to see and photograph? There are two basic categories:

Lunar and planetary bodies: The Moon, Mars, Jupiter, and so on.

Deep-sky objects: Galaxies, nebulae, and star clusters.

If you hope to photograph bright objects like planets, then you probably want to produce high-resolution, crisp, detailed images of planets and other bodies in our solar system.

For instance, you might want to see and photograph the craters of the Moon, the rugged red landscape of Mars, or the cloud bands of Jupiter. In this case, you should aim for a powerful telescope with a relatively long focal length (more on this below).

If you’re most interested in the deep sky, then you’ll probably be taking images with a wider field of view. For this kind of astrophotography, look for a telescope that’s “faster,” meaning that it has a shorter focal length.

Budget

Decide in advance how much you want to invest in a telescope. I firmly believe that every telescope on this list provides excellent value, including the higher-priced ones. Nonetheless, there’s probably a limit to how much you can or want to spend; if you’re working with a tighter budget, take a close look at the Explore Scientific ED80, the Sky Watcher S11210, or the Orion 09007 SpaceProbe, the more affordable options on my list.

Portability

Size and weight are important considerations in choosing a telescope. Portability is especially important if you plan to hike or travel with your telescope. But even if you just plan to observe from your backyard, you’ll want to choose something lightweight and user-friendly enough that you actually use it.

As with many things, there are trade-offs involved. Larger telescopes tend to be more powerful, but smaller telescopes are more portable. In my opinion, the telescopes on this list strike a good balance between power and portability.

Mount

Many telescopes don’t come with mounts included. That gives you the freedom to choose a mount that best fits your needs and priorities.

Your telescope’s mount is crucial for astrophotography. The last thing you want is a wobbly mount that ruins all your photos or makes it impossible to create a long-exposure image. Take a moment to think about what you need in a mount:

How big of a telescope does it need to support?

Where do you plan to put your telescope? Will you need a tabletop mount, or would a full-length tripod serve you better?

Do you plan to travel often with your telescope? Is it important for your mount to be super portable?

There are two broad categories of mounts—altazimuth and equatorial—which each have their pros and cons. Altazimuth mounts are the simpler of the two: They can move up, down, right, and left. This makes them relatively easy to use and inexpensive.

Equatorial mounts, on the other hand, move in coordination with the Earth’s rotation. This means you can more easily and smoothly follow the changing position of celestial bodies over the course of the night.

Accessories

In addition to a mount, you may want to look into the following accessories:

Field flattener: Field flatteners are important accessories for astrophotography as they help reduce distortion.

Coma corrector: This device compensates for comatic aberration.

Telecompressor: Also known as a reducer, this element is used to shorten focal length and make the optical system faster, which produces a wider field of view.

Refractor telescopes

Refractor telescopes were the earliest kind of telescope made. They use lenses to gather and focus light (instead of mirrors, as reflector telescopes do).

Because the body of a refractor telescope is sealed, refractors tend to be a bit tougher; dust and dirt can’t collect inside the tube, and there’s no need for making regular adjustments (whereas reflector telescopes require collimation).

Refractor telescopes are an excellent choice for observing lunar and planetary objects (relatively bright and discrete objects). If you dream of seeing Jupiter’s great Red Spot or getting up-close and personal with the Moon, then give refractors some serious consideration.

Apochromatic refractors

Although some refractors struggle with chromatic aberration—an effect that distorts what you see with your telescope—the apochromatic refractors included here are designed to avoid this issue.

A good, small- or medium-sized apochromatic telescope offers many advantages:

Relatively compact and portable

Durable and low-maintenance

Great optics

Minimal chromatic aberration

Reliably produce awesome photos

Reflector telescopes

The final two telescopes on this list are reflector telescopes, which you can also use for astrophotography. Reflectors use mirrors instead of lenses to collect and focus light.

Reflectors are slightly higher-maintenance than refractors, since the mirrors can be shifted out of alignment by bumps and movements (e.g. while on a car ride). New owners of reflector telescopes will need to collimate the mirrors, but this is easy to learn from your telescope’s manual or an online tutorial.

Aperture

Telescopes generate images by collecting and focusing light. No light, no image. Light can be gathered in either a mirror (reflector telescopes) or a lens (refractor telescope).

Aperture is a measurement of the light-gathering opening in a telescope. It indicates the diameter of either the objective lens (of a refractor telescope) or the primary mirror (of a reflector telescope).

Simply put, a larger aperture means that more light is collected. So, a larger aperture leads to a more powerful telescope that lets in tons of light and can produce images of even distant, dim stars.

Note that quality optics are also important, not just aperture! You want a lot of light coming in, but you also want to it be well-focused.

In addition, bear in mind that as aperture gets bigger, the entire telescope gets bigger, heavier, and more expensive to match, so there is a limit to how big you can reasonably go.

Overall, aperture and quality optics are perhaps the most important factors to consider when selecting a telescope. These factors are much more important than magnification.

Every scope I’ve listed here have, at minimum, an aperture of 70mm (2.76”) large enough to let in ample light. Ideally, you shouldn’t select a telescope with a smaller aperture than that.

Focal length and ratio

Once light enters via the aperture, it travels to a focal plane a particular distance away. A telescope’s focal length measures the distance between the light-gathering mirror or lens and the focal plane on which light is focused. A longer focal length will often (but not always) mean a longer telescope.

The focal ratio describes the relationship between focal length and aperture. It is equal to focal length divided by aperture. So, a telescope with 1200mm focal length and 400mm aperture would have a focal ratio of f/3.

The focal ratio tells you how “fast” a telescope is. Telescopes with focal ratios between around f/6 and f/8 fall in the middle of the spectrum. A lower f/number (e.g. f/3 or f/4) indicates a faster telescope. A larger f/number (e.g. f/10) indicates a slower telescope.

So practically speaking, what do these three interrelated factors—aperture, focal length, and focal ratio—actually mean when you’re comparing telescopes? Here are a few important things to know:

Long focal length + slow focal ratio = smaller field of view, good for photographing bright, distinct objects like the Moon and planets.

Short focal length + fast focal ratio = wider field of view, more suited to photographing faint and faraway objects, or those that are more spread out.

Focal length is frequently correlated with telescope length. A shorter focal length is often found on a shorter telescope.

A telescope with large aperture and long focal length is high-power—but also potentially large, heavy, and unwieldy. If portability is important, then you don’t necessarily want to max out aperture and focal length.

Furthermore, this kind of telescope will have a relatively narrow field of view. You’ll get incredibly crisp, detailed views, but you’ll be constrained to viewing a smaller slice of sky.

It will, however, will be great for lunar and planetary viewing.

Again, you should determine your priorities: Do you want sweeping views of something more spread out like the Milky Way? Or detailed close-ups of distinct objects like Mars? You can also seek a good balance that lets you enjoy both kinds of observation.

In every telescope review up above, I include the aperture size, focal length, and focal ratio to make at-a-glance comparisons easy. Overall, these telescopes should provide a good level of versatility to the hobbyist astrophotographer.

Magnification

Don’t be seduced by high magnification. This feature is in fact one of the less important when it comes to buying a telescope. In fact, you can alter magnification quite easily just by swapping in a different eyepiece. But high magnification has no point if the aperture is not large enough to support it.

Sure, you can zoom in a million times, but that’s meaningless if the resulting image is a grainy blur. The key to maintaining crisp images even at higher magnification: Enough light.

I suggest disregarding marketing claims about the impressive-sounding magnification a given telescope provides. Instead, you can perform a simple calculation to find the greatest useful magnification.

Every inch of aperture translates to between 25x and 50x magnification.

A 5” aperture (the approximate aperture of the Orion 09565 EON) should be capable of up to 250x magnification. This is under good viewing conditions. Under poor conditions with bad light pollution, that number may only be 125x.

A 3” aperture (about the size of the Sky-Watcher Esprit) can handle about 150x magnification under ideal conditions and 75x under worse conditions.

How much magnification is “enough”?

You might be surprised to learn that at 50x, you can see details such as the rings of Saturn. 100+x magnification provides a fantastic level of detail, assuming the image remains crisp and clear.

And again, aperture and quality optics are key to a clear image. That’s because the trouble with astronomical observation isn’t just that the objects are small and faraway. It’s that the objects are often very dim. The only way to fix that is to collect more light.

Final thoughts

Astrophotography has captured countless people’s imaginations. Many of us are inspired by the images we’ve seen and feel drawn to create our own.

The telescopes I’ve listed here will help you pursue this hobby, whether you’re completely new to it or you’re already somewhat experienced. I’ve chosen models that I think offer especially good value for the price, generate detailed images, and provide a user-friendly experience.